MISEL: Multispectral Intelligent Vision System with Embedded Low-power Neural Computing

MISEL: Multispectral Intelligent Vision System with Embedded Low-power Neural Computing

Descrición

MISEL aims at bringing artificial intelligence to the edge computing (decisions made on-device) through a low-power bioinspired vision system with multi-spectral sensing and in sensor spatio-temporal neuromorphic processing based on complex events. The science-to-technology breakthrough is the heterogeneous integration of a neuromorphic computing scheme featuring three different abstraction levels (cellular, cerebellar and cortex processors) with high-density memory arrays and adaptive photodetector technology for fast operation and energy efficiency. The context-aware, low power and distributed computation paradigm supported by MISEL is promising alternative to the current approach relying on massive-data transfers and large computational resources, e.g., workstations or cloud servers. This answers to the challenges and related scope presented in the Work Programme towards "more complex, brain mimicking low power systems" "exploiting a wider range of biological principles from the hardware level up" by introducing the human eye like adaptivity with cellular processor and the data fusion, learning, reasoning, and “conscious” decisions performed by the cortex.

The stand-alone system fabricated in MISEL will be tested on timely and challenging applications such as distinguishing birds from drones through their spatio-temporal flying signature, and scene anomaly detection from a mobile platform. From the technology development and industrialization point of view, MISEL includes the whole value chain: materials research for back-end of line (BEOL) processing-compatible densely-packed ferroelectric non-volatile memories (FeRAMs) and intensity adaptive photodetectors, novel neuromorphic computing algorithms and circuit implementations, and system level benchmarking. This is all in line with the challenge and scope of "outperforming conventional SoA with relevant metric" and benchmarking "challenging end-to-end scenarios of use" for industrial adaptation.

Investigadores

Detalles

Data de execución:01/01/2021 - 31/12/2024
Consorcio
  • VTT Technical Research Centre of Finland (líder)
  • AMO
  • BERGISCHE UNIVERSITAET WUPPERTAL
  • FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.
  • KOVILTA OY
  • LABORATOIRE NATIONAL DE METROLOGIE ET D'ESSAIS
  • LUNDS UNIVERSITET
  • POLITECHNIKA LODZKA
  • CiTIUS
Financiado por2020 FETPROACT-09-2020 Neuromorphic computing technologies, European Commission, Grant agreement ID: 101016734
European Commission